Chlorine-free, monolithic lanthanide series rare earth oxide aerogels via epoxide-assisted sol-gel method
Journal of Sol-Gel Science and Technology(2018)
Abstract
Synthesis of chlorine-free, rare earth oxide aerogels from the lanthanide series was achieved using a modified epoxide-assisted sol-gel method. An ethanolic solution of the hydrated metal nitrate, propylene oxide, and ammonium carbonate was found to gel upon heating to 333 K. Critical point drying of the wet gel in CO 2 yielded monolithic aerogels. Most of the aerogels were amorphous as-prepared, but became nano-crystalline after calcination at 923 K in air. The aerogels had high surface areas (up to 150 m 2 /g), low densities (40–225 mg/cm 3 ), and were photoluminescent.
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Key words
Rare earth oxide,Aerogel,Sol-gel,Monolith,Catalyst,Photoluminescence,Rietveld refinement
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